Second Test of X-43A Scramjet Tomorrow 325
pinkUZI writes "NASA says its new Hyper-X, a jet capable of flying some 5,000mph - seven times the speed of sound - will be ready to take a test cruise across the Pacific this Saturday. This is actually NASA's second attempt; the first, in 2001, failed when stabilizing fins flew off the plane's booster rocket and controllers ordered the craft destroyed. CNN has the story." NASA's mission web page has more information, photos, etc.
Dupe.. (Score:5, Informative)
Re:Dupe.. (Score:4, Funny)
Re:Dupe.. (Score:2, Funny)
Re:Dupe.. (Score:5, Funny)
still need ... (Score:4, Interesting)
Re:still need ... (Score:5, Informative)
The X1 was also launched from a plane and was the first aircraft to break the sound barrier. Planes such as the SR-71 have far surpassed this speed and takeoff in the conventional fashion.
I'm not sure what you're referring to when you state "always be launching them from the underbellies of a big plane".
Re:still need ... (Score:2, Informative)
A more useful comparison would be with an F15-e or F16, more than capable of traveling at mach 2ish, no refueling right after takeoff, regular old jet fuel.
Re:still need ... (Score:2, Informative)
Re:still need ... (Score:5, Informative)
Re:still need ... (Score:2, Interesting)
Re:still need ... (Score:5, Informative)
Circumference (Score:5, Interesting)
But if the earth's circumference is around 25,000 miles, and this jet can go 5,000 miles an hour, that would mean it would take only 2.5 hours to get from any location to any other.
Okay, if it only takes 2.5 hours at top speed to go anywhere on the planet, how much time is spent accelerating and decelerating versus actually flying at Mach 10? And how much fuel are you burning in the process? I remember working at LaRC when they were just starting to test scramjets and I still think the science is good for orbit, but bad for commercial applications.
Re:Circumference (Score:2, Insightful)
Re:Circumference (Score:4, Informative)
Re:Circumference (Score:5, Informative)
How do you work that out? a circumference of 25,000 miles gives us a radius of 3,978 miles. Go a mile up, and the effective radius is 3,979 miles, which gives us a circumference of...
25,006 miles. Not much of a difference.
Re:Circumference (Score:2)
Re:Circumference (Score:2)
Re:Circumference (Score:2, Funny)
If the security check ins take any longer we'll need speeds like this to get anywhere. Besides, just think how fast all of your luggage can be lost and sent to Burma!
Re:still need ... (Score:4, Interesting)
What I don't quite understand is why they need a rocket capable of reaching orbit just to get the X-43 up to ~mach 5 so it can start it's engines. It seems like overkill to me. I would suppose they only use the Pegasus's first stage; maybe they had some cheap spares laying around.
Re:still need ... (Score:5, Insightful)
Plus, the plane is the subject of the experiment, so you want to minimize the number of possible failure points in all the other systems. Using a booster thats already proven is a great way to do this. Of course, in flight one it was the booster that failed...
Re:still need ... (Score:3, Interesting)
Re:still need ... (Score:5, Funny)
Please don't mod this informative.
Re:still need ... (Score:5, Interesting)
flying at 5,000 mph, you'd basically have all the body lift yo'd need... the SR-71 (aka Habu or Blackbird) uses small wings and is very specialized.
The SR-71 has tiny wings, and consists of 2 huge engines.. it also leaks fuel onto the runway until the body heats up to running temperature.
The point being that the SR-71 has a very high take off and landing speed due to the small lift per mile figure. It will fly straight up and over a thousand mph until the engines run out of oxygen at nigh on 100,000 feet.
A aircraft using the scramjet capable of 5,000 mph would have to have very small wings for low air resistance and wouldnt need large lift per mile.
The ScramJet wouldnt work at low speeds, therefore the runway would have to be very long to take off using a conventional JATO (Jet Assisted Take Off) unit to get the ScramJet working. Getting a scramjet off the runway is going to be interesting!
BTW, what engine does the proposed (Active?) Aurora reconissance/spy plane use? It's supposed to have a very high speed (~3000-4000 mph?)
Re:still need ... (Score:4, Informative)
The SR-71 has tiny wings,
Small wings? Have you ever looked at an SR-71? With a wing span of 55 and a half feet, and a wing area of 1795 square feet, its wings are far short of "small". A 737 only has a wing area of 1344 square feet.
Low lift wings maybe, making for less wind resistance and friction, but small, not hardly.
scramjet? (Score:5, Funny)
Da-dum-ching!
Re:scramjet? (Score:2, Funny)
Re:scramjet? (Score:5, Funny)
Re:scramjet? (Score:4, Funny)
Favorite Quote on Hypersonic Travel (Score:5, Insightful)
Gordon D. Pusch wrote in sci.space.tech: "Hypersonic travel combines all the disadvantages of airplanes with all the disadvantages of rocket flight and all the disadvantages of re-entry --- continuously."
Re:Favorite Quote on Hypersonic Travel (Score:3, Funny)
Re:Favorite Quote on Hypersonic Travel (Score:2)
What are the advantages of continual reentry? (Score:2)
Re:What are the advantages of continual reentry? (Score:3, Funny)
Re:What are the advantages of continual reentry? (Score:4, Funny)
Jeroen
Space flight? (Score:4, Interesting)
The article starts off with this:
The space agency's dogged pursuit of extreme speed, officials hope, will ultimately make space flight easier to accomplish.
OK, so exactly how is this supposed to aid space flight efforts? There is no mention made of that in the article at all.
I would have thought that the ability to reach incredible speeds in horizontal flight inside the atmosphere is unrelated to both:
1) Entering orbit (horizontal flight).
2) Flying in vaccum (different conditions than in atmosphere).
I'm confused ... any thoughts?
Re:Space flight? (Score:5, Interesting)
At the moment the only viable way to get stuff in orbit is by strapping a shitload of explosives under it.
Remember, it is horizontal speed that results in the air pushing a winged body upward towards that vaccum so it is not totally unrelated to space flight.
Jeroen
Re:Space flight? (Score:4, Informative)
Re:Space flight? (Score:5, Informative)
Disclaimer, IANARSBIAITTBO (I am not a rocket scientist, but i am in training to become one)
Re:Space flight? (Score:2)
Or have I missed something?
Re:Space flight? (Score:2, Informative)
As anyone who has taken high school physics should know, to get into orbit does not just require "going up." It requires reaching orbital velocity about 25,000 mph.
physlink.com [physlink.com]
A scram jet could be used for part of an orbital flight from about 7 to 10 times the speed of sound. A rocket would probably be used before and after the scram jet, but there would be considerable fuel savings. Of coure once you are outside the atmosphere, a jet is useless and a rocket engine would have to be use.
Well this is
Re:Space flight? (Score:5, Interesting)
There is no mention made of that in the article at all.
Would this be completely unconnected with the Hypersonic Cruise Vehicle [spacedaily.com] (Falcon) concept? DARPA's idea for a global hypersonic bomber that could pre-emptively bomb a country back to stone age before Letterman.
Still, the Germans beat DARPA to this idea by about 60 years - meet the Sanger Amerika bomber [luft46.com]... an aircraft that would fly right around the planet skipping off the atmosphere like a stone thrown across a pond.
Best wishes,
Mike.
Re:Space flight? (Score:4, Informative)
Re:Space flight? (Score:2)
Thanks for that scary link, all of a sudden Dubya's NMD plan seems almost rational... ALMOST.
Best wishes,
Mike.
Re:Space flight? (Score:2)
Re:Space flight? (Score:2)
Re:Space flight? (Score:4, Insightful)
I'm sure we'll eventually be able to deploy scramjet technology to boost space-bound vessels into the upper atmosphere and release them from there to continue under their own power. Given that the scramjet itself currently needs a boost, I think it will be a while before we see such a feat.
Re:Space flight? (Score:2, Informative)
Re:Space flight? (Score:2, Informative)
BTW, this is why the X-prize will need to have a follow-up contest (Y-prize?) to really open up space: the X-prize teams are trying for altitude, and then falling right back down. They aren't achieving orbit
ROCKET MAN (Score:2, Funny)
Why? (Score:5, Insightful)
The only possible use I can think of is hyper-range weapons. Ground-controlled planes armed with lethal cargo (nuclear or not) could be flown around the globe faster than any ICBM, and guided with better accuracy.
I'm all for "Science for Science's sake" but I think this is worthless for any practical purposes.
Re:Why? (Score:5, Insightful)
Granted, the nice stewardesses tell you that you can use your seat cushion as a floatation device, but two things strike me in that scenario:
1) What are the chances of surviving initial impact into the ocean when the plane is in a 600 mile an hour vertical dive
2) Do I really want to float around in the North Atlantic for several days, clinging to a pillow full of beer farts
And yet, we still do this on a regular basis because guess what - it's actually fairly safe. As will hypersonic travel be, once we get around to getting better materials etc.
In the 1700's people really believed that if you traveld faster than a horse, you'd die from the shock and that it would be impossible to build a heavier than air flying machine. Guess what - they were wrong, and you will be as well. Some day (if we don't manage to blow up ourselves first).
Dive? (Score:5, Insightful)
Mostly I agree, but your first question starts with an incorrect assumption: a 600mph vertical dive. Pilots are trained at ditching an airplane at sea, and planes do float for a short time after this happens. In fact (though I don't know of any specific cases off hand) it has happened before, and many passangers have survived ditching at sea. Vertical dives do not happen in a significant amount of emergency situations, wings are simple devices and don't break all that often, and a wing is all you need to prevent a vertical dive.
Airplanes have backup batteries, and backup radios. You can be sure that before the plane hits the water emergency people know that it is going down, and about where. They might not be able to get to you in time to save you, but they at least know where to look just in case.
I'd prefer to float around the North Atlantic than die. Though I think it is safe to assume that if it really is several days before rescure workers find you they will find a dead body. However depending on where the crash happens, rescure workers may find you sooner.
Re:Dive? (Score:2)
Re:Dive? (Score:3, Informative)
Re:Dive? (Score:2, Interesting)
Spoiler Alert (Score:2)
Because, if the worst comes to the worst you can do the DiCaprio, and choose to let go.
Hey, I didn't see that movie!
Re:Why? (Score:5, Insightful)
This is the most tragic thing I've ever read on Slashdot. We USED TO be able to go from New York to London in two hours. It was sixties technology, hacked together by two dying empires looking for some prestige. Now we're looking at a little dart fired off a B-52 and dreaming of flying that fast again someday... What the hell went wrong?
Re:Why? (Score:4, Interesting)
1) US refusing Concorde at supersonic speed over US territory.
2) Price of petrol
3) 2 hours of transatlantic flight, 2 hours to go to the initial airport, 2 hours to go from the final airport...
4) Looking back at this, it was somewhat an ecological catastrophe
How will all those factors be taken into account by the sdcramjet developers?
Re:Why? (Score:3, Interesting)
The other killer was probably that it couldn't quite carry the fuel to cross the Pacific. T
no (Score:3, Informative)
Done for the same reason that most western European countries cited when limiting Concorde flights, i.e. noise. I'd expect less noise to be generated by scramjets because of the lack of fans (reducing aerodynamic and mechanical noise) and more compact combustion of the vapor-fuel mixture.
SCRAMJETs will not use kerosene-derived propellant. They will combust hydrogen with oxygen from the atmosphere (maybe you should have done
Well, if anything goes wrong in any plane (Score:2)
There's not alot that can be done when your tail section blows out due to improper riveting. You can't do anything but pray and land when the top of the aircraft peels open like a sardine can due to a bad joint that allows a crack to propogate the length of the plane.
And you know what? People still die falling down a flight of stairs.
It doesn't matter how fast you go, how close to the ground you are.
Now you do have good points about wing shock, but, those sp
Re:Why? (Score:2)
You can bet someone said the same thing when the Wright Brothers put a plane in the air. They're testing this; they're not putting it into production. We still have a lot to learn, and this is a big step in the right direction.
Good luck to the fine men and women at NASA. We'll be watching.
Re:Why? (Score:2)
Isn't that pretty much true in any tin can moving at supersonic speeds powered by exploding fuel? The Concorde cruises just fine at Mach 2, the SR-71 at Mach 3.3+.
Deja Vu ? (Score:3, Insightful)
The article claims travel benefits, going from New York to London in 2 hours. But honestly, travelling that fast, if anything went wrong you're toast.
I imagine this is almost exactly what was claimed when the combustion engine was being developed..
Just think about it:
The inventors claim travel benefits, going from New York to Bostin in 3 hours. But honestly, travelling that fast, if anything went wrong you're toast.
Scramjets = Mach 10 cruise missile (Score:2)
On the other hand, while a rocket needs to carry its own propellant, the scramjet uses atmospheric air. It is therefore much more efficient, and for a given size and weight constraint, one could build a scramjet powered vehicle that could have some combination of greater speed and range over conventio
Re:Why? its a bomb of course... (Score:2, Insightful)
((1 / 2) * (1 000 kg)) * ((7 000 mph)^2) = 4.89619666 x 10^09 Joules
a 20 kiloton bomb is ~10^13 joules...
What these means is... if they can put these engines on largers chunks of mass (i.e. increase the mass of the object flying at 7 times the speed of sound). They could have a bomb, with the explosive power of an atomic weapon... without using atomic methods. There is no need to strap a atomic warhead
Hypersonic Cruise Vehicle (bomber) ? (Score:2)
Choice quotes...
"The US will be able, using aircraft based on its own territory, to strike at individual targets without warning and without the need for foreign bases"
"The current and future international political environment severely constrains this country's ability to conduct long-range strike missions"
Second Post of X-43A Article Today (Score:3, Funny)
Ok, so Jet Propulsion Lab. does space.... (Score:5, Funny)
Is it a cunning plan to out-fox those secret stealing ruskies?
Re:Ok, so Jet Propulsion Lab. does space.... (Score:2)
Re:Ok, so Jet Propulsion Lab. does space.... (Score:4, Interesting)
http://www.jpl.nasa.gov/about_JPL/jpl101.pdf
The way this reads is there was a race after sputnik to launch the first U.S. satellite. The JPL/Army Orbiter lost out to the Navy's Vangaurd. Vangaurd exploded on the pad and JPL revived Orbiter but they focused on the satellite more than the rocket. They turned their focus to payloads from them on, and NASA came in to being in 1958 and assumed hegemony over rocket R&D elsewhere. As for not changing the name I assume it was:
A. Sentimental, since the early JPL had a rich history
B. To cheap to print new stationary and change signs
C. Geeks busy doing geek stuff and didn't get around to it
The original founders are a colorful group. Theodore Von Karman was the leader and guding force.
Jack Parsons, leading chemist, who was part of an "esoteric order" rumored to be fond of drugs and orgies.
Tsien Hsue-shen is considered to be the father of the Chinese missile and space program. He was held hostage in the U.S. for a number of years during the red scare when he wanted to return home to China. He was released by Eisenhower as part of prisoner exchanges in Korea.
Complexity not always a good thing (Score:5, Interesting)
The danger here is that the darn thing will carry all of these systems and have no capacity left over for payload. I recall the Boeing SST back in the late 60's early 70's was based on a swing wing concept. The scale of the mechanical systems to swing the large wing faced them with a difficult choice of a swing wing or passengers...but not both.
In the physics world one has a sense that they are on to something when the math becomes elegant and simple...I think in the "no moving parts" nature of the scram jet are appealing...a turbofan/scram/rocket combination is not
Physics Question (Score:2, Interesting)
Why do you need to be going 25,000 mph to get away from the Earth?
I can jump into the air and get away from the Earth, for a couple seconds anyway, and I'm not going nearly that fast.
I thought as you got farther away from a body, the gravitational pull decreases using some inverse-square rule.
As long as you can get airborne and are able to keep moving upwards, why doesn't it become easier to keep going the high
Re:Physics Question (Score:4, Informative)
In real layman's terms......
weigh yourself at sea level
then weigh yourself again at the top of mount everest
unless you are using *really* accurate scales the two readings will be the same.
now go back to both locations where you weighed yourself and measure the atmospheric pressure in both places.
unlike your weight you'll find the pressure is about a third of what it was at sea level.
pressure in a known and unchanged mixture of gases is another way of counting how many molecules of gas there are in any given cubic meter, or to put it another way, the mass of a given cubic metre.
so your aerofoil (wing) at the top of everest has about one third of the mass of gas to ride on as it does at sea level.... if your aerofoil is a fixed wing then you can always travel three times as fast (hence needing a scramjet) whereas if your aerofoil is a rotary wing (helicopter) you come up against a hard limit when the out edges of the rotors approach the speed of sound, hence the much lower maximum altitude ever recorded in a helicopter as opposed to a swing wing.
NB all of the above is really really simplified and therefore full of errors to a physicist / aerodynamics / bernoulli / etc etc etc
HTH etc
Re:Physics Question (Score:3, Informative)
Assuming the same coffficient of lift, Cl, in order to generate the same amount of lift you would have to have the same "dynamic pressure" (to borrow a Boeing term), then (from Bernoulli equation)
If t
Re:Physics Question (Score:3, Interesting)
Re:Physics Question (Score:4, Interesting)
Your post was mostly right except for this part. IF (yes that's a big if;) you had sufficient fuel, as you pointed out above, you could fly at 1 MPH to the Moon. And, once you reach the crossover point (where the Moon's gravitational field is stronger than the Earth's), you have escaped in the sense of escape velocity. You won't be going back home.
Escape velocity is only relevant for ballistic (unpowered) objects.
Given our current propulsion systems, all of our spacecraft are essentially ballistic except for the new ion powered ones - and those are very low thrust. Practical antimatter propulsion would make things a lot more interesting! :-)
Re:Physics Question (Score:2)
The phrase "able to keep moving upwards" is the most important in that sentence. Aircraft are able to fly because they move through air. The higher you go, the less air there is, and the harder it is for a conventional aircraft to remain airborne. At that point you start to need a more traditional wingless rocket booster a la NASA. So far nobody has successfully combined the two technologies but I daresay a lot of people are working on it since it could prove staggeringly useful for cheaply boosting stuff i
B-52 Monthership almost as interesting (Score:5, Interesting)
It's an aging early-model B-52B, evidenced by the non-pointy nose and is 49 years old. There are virtually no spare parts remaining for it, and most of the current inventory (Gs, Hs) don't have any parts commonality.
Plus, we never sold any of them to other countries, so it's not like there's a stockpile somplace else on the globe. The cost to replace it is prohibitive, given the structural reinforcements needed to carry the craft aloft. Also, the airframe is very young from an hours perspective. In fact, it's the lowest hour B-52 in the inventory.
The USAF has loaned an H-model to NASA to become the next generation launch platform, but I haven't heard much about it since the 2001 announcement.
It's a supremely important beast in the research arsenal. And, given our penchant for resurrecting C-64s as web servers and using mame to emulate decades-old cabinet games, it seems like the sort of thing that would interest the average computer geek.
Like so many things, it's the logistical details of maintaining an archaic aircraft against all odds (and lack of funding) that really become the story rather than the whizz-bang doodad that always gets the front page pictures.
What is a scramjet? (Score:5, Informative)
For those who want to know what a scramjet is, and how it works, check this page [aviation-history.com].
A ramjet has no moving parts and achieves compression of intake air by the forward speed of the air vehicle. Air entering the intake of a supersonic aircraft is slowed by aerodynamic diffusion created by the inlet and diffuser to velocities comparable to those in a turbojet augmentor. The expansion of hot gases after fuel injection and combustion accelerates the exhaust air to a velocity higher than that at the inlet and creates positive push.
Scramjet is an acronym for Supersonic Combustion Ramjet. The scramjet differs from the ramjet in that combustion takes place at supersonic air velocities through the engine. It is mechanically simple, but vastly more complex aerodynamically than a jet engine. Hydrogen is normally the fuel used.
This is all very different from conventional airliner engines, which are a gas turbine/fan nacelle called a "turbofan". (A "turboprop" is a gas turbine driving a propeller instead of a fan, BTW.)
A hypothetical assumption. (Score:5, Funny)
For Christ's-sake, in that episode of ST:TNG where Riker had salt-and-peper hair and he didn't play trombone, I clearly heard him say: "WARP THIRTEEN! ENGAGE!" What the hell mach was Tom Cruise going before he entered into coitus with that blonde? What is the top theoretical speed of the current US fighter/and or/stealth aircraft?
What are the records here, that my tax-dollars are allegedly breaking?
Don't mod this retarded shit up, this is the uninformed wanting to become informed.
Re:A hypothetical assumption. (Score:3, Informative)
Current fighters top out at somewhat over Mach 2, perhaps Mach 2.5 for the F-15.
The upcoming F-22's top speed is classified, but it might be as high as Mach 3 (this is purely a guess on my part). It is quite a bit higher performance than the F-15, and can cruise at supersonic speed (somewhere over Mach 1, again classified) without afterburner. It's the first aircraft ever to have this capability, dubbed "supercruise" (no
Re:A hypothetical assumption. (Score:2, Informative)
Well, that was the orbiting velocity of the Space Shuttle. That's over Mach 20. It's rather easier to go fast in space - there isn't all that air you have to shove out of the way.
The fastest combat jet is the MiG-25, which has been radar tracked at 3,395km/h.
Re:A hypothetical assumption. (Score:2)
Re:A hypothetical assumption. (Score:4, Informative)
The SR-71 Blackbird has an official top speed of around Mach 3.5, and unofficially several pilots have reported taking the plane to substantially higher speeds. The plane's airspeed indicator goes up to Mach 5, if that means anything.
At Mach 3.5, air resistance raises the plane's temperature to nearly a thousand degrees fahrenheit. Conventional aircraft aluminum would soften and lose its structural integrity at that temperature. For that reason, the SR-71's skin is made out of titanium. Thermal expansion causes the plane to be around six inches bigger while it's flying versus on the ground, which naturally caused nightmares for the plane's designers. The plane has a special cooling system which uses its jet fuel as a coolant liquid, circulated under the skin. After landing, ground crew must wait for a while before they can safely touch it, because the surface is so hot.
And that's only Mach 3.5. Does Mach 7 still not sound impressive to you?
Re:A hypothetical assumption. (Score:2)
Obligatory Spaceballs comment (Score:5, Funny)
What have I DONE!?!?! MY BRAINS ARE GOING INTO MY FEEEET!!!
My sister did the logo! (Score:3, Interesting)
Caity was out in California for proton radiation treatment, Joel (uncle in law / NASA engineer) held a party for his Engineering Section at his house and Caity drew a picture of the X43 plane's logo on the sidewalk in chalk.
After Caity passed Joel took the picture of her sidewalk drawing and went to Nasa to have the plane named in Caity's honor and have her picture on the side of the plane.
I hope this one does a lot better than the last time, it has a lot of sentimental value!
X-43C is cancelled, unfortunately (Score:3, Informative)
Is it just me... (Score:2, Insightful)
Maybe since Sci-fi authors started using the normal system NASA felt they needed to distence themselves from the logical way of doing things so as to gain/keep credibility?
Ahh, a Tom Lehrer tribute! (Score:2)
"That's not my department," said Wernher von Braun.
Re:Military - yuck (Score:5, Informative)
Re:Sonic-boom? (Score:2, Insightful)
Re:Sonic-boom? (Score:2, Informative)
Re:Sonic-boom? (Score:5, Informative)
At supersonic speeds, the edge of the soundwaves that are produced by an object is a cone in the object's inertial frame. Regardless of the speed. The speed only changes the angle of this cone..
Re:Darwin Award winner (Score:2, Informative)
Re:Darwin Award winner (Score:2)
Re:Inertia? (Score:4, Informative)
Inertial damperners aren't exactly that hard to build. Consider that the inertial force is proportional to both mass and acceleration, the only thing you would need to acomplish is reducing mass to near zero. I'll leave that as an exercice for the reader.
Re:Rather US Centric statement (Score:2, Informative)
No, they didn't. It was a rocket test.
and maybe I'm slightly mistaken here
Yes, you are.
but I find it almost typical of NASA to so completely ignore these other countries who in this case actually got there first and are possibly (?) more advanced than NASA in this area.
No, NASA's statement, as it was worded, was correct. It is you who are in error.
Of course if your world view is limited to America and the occassional country it chooses to bomb
Re:Rather US Centric statement (Score:2)
http://www.nti.org/e_research/profiles/India/Mi s si le/
http://www.newsmax.com/archives/articles/2001
As I said in my message, I'm aware these aren't _vehicles_, however I've always thought of them as the state of the art in this area rather than what NASA is doing. Perhaps someone can explain how what NASA